The promise of RNA interference based therapeutics is made evident by the recent surge of biotechnological drug companies that pursue such therapies and their progression into human clinical trials. The present technology discloses novel RNA and RNA/DNA nanoparticles including multiple siRNAs, RNA aptamers, fluorescent dyes, and proteins. The National Cancer Institute sees parties interested licensing this technology or in collaborative research to co-develop RNAi-based nanoparticle therapeutics for cancer and HIV.
Researchers at the National Cancer Institute (NCI) RNA Biology Laboratory have developed nanoparticles that can deliver an agent (i.e., therapeutic or imaging) and release the agent upon targeted photoactivation allowing for controlled temporal and localized release of the agent.
The National Cancer Institute’s Laboratory of Experimental Immunology seeks partners interested in licensing or collaborative research to co-develop monoclonal antibodies and ADCs, and methods of making them.
Researchers at the National Cancer Institute (NCI) seek research collaborations or licensees for a monoclonal antibody targeting TEM8 and related conjugates. The antibody and antibody drug conjugates (ADC) containing the antibody of the current invention were tested in vivo and have potential for use in cancer immunotherapy.
The National Cancer Institute is seeking parties interested in collaborative research to co-develop, evaluate, or commercialize a new mouse model for monoclonal antibodies and immunoconjugates that target malignant mesotheliomas. Applications of the technology include models for screening compounds as potential therapeutics for mesothelioma and for studying the pathology of mesothelioma.
Researchers at the National Cancer Institute (NCI) developed cell free methods for efficiently producing high titer, papillomavirus virus-based gene transfer vectors. These vectors can potentially be used for vaccines and/or cancer therapeutic applications. NCI seeks licensing and/or co-development research collaborations for further development of these vectors.
It is well known that overactive Ras signaling is linked to many forms of cancer, and despite intensive efforts worldwide to develop effective inhibitors of Ras, to date there is no anti-Ras inhibitor in clinical use.
Researchers at the NCI’s Cancer and Inflammation Program, in collaboration with scientists at Vanderbilt University and the University of Illinois in Chicago, have identified a number of small peptidomimetic compounds that bind to Ras proteins with nanomolar affinity. NCI’s Cancer and Inflammation Program seeks partners interested in licensing or co-development of synthetic, highly potent cell-permeable inhibitors of Ras that bind to the protein directly.
Surgery specialists from Johns Hopkins University, in collaboration with researchers at the National Cancer Institute (NCI), developed peptide hydrogel compositions and methods to suture blood vessels during microsurgery. The hydrogels particularly benefit surgeons in whole tissue transplant procedures. The NCI seeks co-development research collaborations for further development of this technology.
Researchers at the National Cancer Institute (NCI) have developed an improved class of heptamethine cyanine fluorophore dyes useful for imaging applications in the near-IR range (750-850 nm). A new chemical reaction has been developed that provides easy access to novel molecules with improved properties. Specifically, the dyes display greater resistance to thiol nucleophiles, and are more robust while maintaining excellent optical properties. The dyes have been successfully employed in various in vivo imaging applications and in vitro labeling and microscopy applications. The NCI seek co-development or licensees to develop them as targetable agents for optical-guided surgical interventions.
Pulmonary surfactant plays a critical role in preventing alveolar collapse by decreasing surface tension at the alveolar air-liquid interface. Surfactant deficiency contributes to the pathogenesis of acute lung injury (ALI) and acute respiratory distress syndrome (ARDS), common disorders that can afflict patients of all ages and carry a mortality rate greater than 25%. Excess surfactant leads to pulmonary alveolar proteinosis. NCI investigators created a G-protein coupled receptor GPR116 mutant mouse model and showed that GPR116 plays a previously unexpected, essential role in maintaining normal surfactant levels in the lung. The National Cancer Institute seeks partners interested in collaborative research to license surfactant modulating agents for the treatment of surfactant related lung disorders.
T cell receptors (TCRs) are proteins that recognize antigens in the context of infected or transformed cells and activate T cells to mediate an immune response and destroy abnormal cells. The National Cancer Institute's Surgery Branch seeks interested parties to license or co-develop the use of T cell receptors (TCRs) cloned against the SSX-2 antigen for the treatment of cancer.
Researchers at the National Cancer Institute (NCI) developed several high-affinity monoclonal antibodies to treat Fibroblast Growth Factor Receptor 4 (FGFR4)-related diseases including rhabdomyosarcoma and cancers of the liver, lung, pancreas, ovary and prostate. These antibodies have been used to generate antibody-drug conjugates (ADCs) and chimeric antigen receptors (CARs), which are capable of specifically targeting and killing diseased cells. NCI seeks co-development opportunities or licensees for this technology.
The present invention describes novel virus-like particles (VLPs) that are capable of binding to and replicating within a target mammalian cell, including human cells. The claimed VLPs are safer than viral delivery because they are incapable of re-infecting target cells. The National Cancer Institute's Protein Expression Laboratory seeks parties interested in licensing the novel delivery of RNA to mammalian cells using virus-like particles.
Researchers at the National Cancer Institute developed a novel method of immunogenic modulation in androgen and endocrine deprivation therapy. A combination of hormone therapy with immunotherapies such as PROSTVAC™, a Brachyury vaccine, PROVENGE™, ipilumimab, nivolumab, XOFIGO™, PANVAC, a yeast-MUC-1 immunotherapeutic, or HERCEPTIN™ can benefit prostate and breast cancer patients, especially those who have acquired resistances. The researchers seek parties to co-develop this method.
Researchers at the National Cancer Institute (NCI) seek licensing and/or co-development research collaborations for peptide-based virus-like nanoparticles that are fully synthetic and capable of delivering cytotoxic, radioactive, and imaging agents. The researchers are interested in commercial partners to conduct pre-clinical and pre-IND studies.
Researchers at the National Cancer Institute (NCI) developed orthotopic allograft models for pancreatic cancer that utilize cells or tumor fragments implanted into the cancer-free pancreata of recipient immunocompetent mice. NCI seeks licensees to commercialize this invention.